Hydrogen is a clean, sustainable, and efficient energy carrier. However, the safe and
controllable storage and evolution of hydrogen for practical applications remain challenging …

Hydrogen is the most effective and sustainable carrier of clean energy, and liquid-phase
hydrogen storage materials with high hydrogen content, reversibility and good …

Different from isolated metal atoms and large metal nanoparticles (NPs), supported metal
clusters (SMCs) possess distinct geometric and electronic structures and thus exhibit …

The storage and utilization of low‐carbon electricity and decarbonization of transportation
are essential components for the future energy transition into a low‐carbon economy. While …

Hydrogen (H2), a regenerable and promising energy carrier, acts as an essential role in the
construction of a sustainable energy system. Formic acid (HCOOH, FA), a natural biological …

With the renewed interest for hydrogen as an energy carrier, means to produce, but most
importantly store, transport, and distribute,“green” hydrogen over long distances has …

As a state-of-the-art resource for in situ hydrogen supply, formic acid has recently attracted
considerable attention due to its advantages of high hydrogen content, low toxicity, and easy …

Hydrogen (H2) generation from natural biological metabolic products has remained a huge
challenge for the energy arena. However, designing a catalytic system with complementary …

Formic acid (FA), a high-value product of CO 2 hydrogenation and biomass conversion, is
considered a promising liquid organic hydrogen carrier for its high hydrogen content, easy …

Formic acid is a promising hydrogen source and liquid organic hydrogen carrier because of
its high hydrogen density. To produce hydrogen from formic acid, catalytic dehydrogenation …